Under-expression is coded with green,
over-expression with red color.
molecular_function
Elemental activities, such as catalysis or binding, describing the actions of a gene product at the molecular level. A given gene product may exhibit one or more molecular functions.
metal ion transmembrane transporter activity
Catalysis of the transfer of metal ions from one side of a membrane to the other.
transporter activity
Enables the directed movement of substances (such as macromolecules, small molecules, ions) into, out of, within or between cells.
ion channel activity
Catalysis of facilitated diffusion of an ion (by an energy-independent process) by passage through a transmembrane aqueous pore or channel without evidence for a carrier-mediated mechanism.
inward rectifier potassium channel activity
Catalysis of the transmembrane transfer of a potassium ion by an inwardly-rectifying voltage-gated channel. An inwardly rectifying current-voltage relation is one where at any given driving force the inward flow of K+ ions exceeds the outward flow for the opposite driving force. The inward-rectification is due to a voltage-dependent block of the channel pore by a specific ligand or ligands, and as a result the macroscopic conductance depends on the difference between membrane voltage and the K+ equilibrium potential rather than on membrane voltage itself.
voltage-gated ion channel activity
Catalysis of the transmembrane transfer of an ion by a voltage-gated channel. An ion is an atom or group of atoms carrying an electric charge by virtue of having gained or lost one or more electrons.
voltage-gated potassium channel activity
Catalysis of the transmembrane transfer of a potassium ion by a voltage-gated channel.
cation channel activity
Catalysis of the energy-independent passage of cations across a lipid bilayer down a concentration gradient.
potassium channel activity
Catalysis of facilitated diffusion of a potassium ion (by an energy-independent process) involving passage through a transmembrane aqueous pore or channel without evidence for a carrier-mediated mechanism.
transmembrane transporter activity
Catalysis of the transfer of a substance from one side of a membrane to the other.
cation transmembrane transporter activity
Catalysis of the transfer of cation from one side of the membrane to the other.
ion transmembrane transporter activity
Catalysis of the transfer of an ion from one side of a membrane to the other.
channel activity
Catalysis of energy-independent facilitated diffusion, mediated by passage of a solute through a transmembrane aqueous pore or channel. Stereospecificity is not exhibited but this transport may be specific for a particular molecular species or class of molecules.
ligand-gated ion channel activity
Catalysis of the transmembrane transfer of an ion by a channel that opens when a specific ligand has been bound by the channel complex or one of its constituent parts.
passive transmembrane transporter activity
Catalysis of the transfer of a solute from one side of the membrane to the other, down the solute's concentration gradient.
voltage-gated channel activity
Catalysis of the transmembrane transfer of a solute by a channel whose open state is dependent on the voltage across the membrane in which it is embedded.
ligand-gated channel activity
Catalysis of the transmembrane transfer of a solute by a channel that opens when a specific ligand has been bound by the channel complex or one of its constituent parts.
gated channel activity
Catalysis of the transmembrane transfer of a solute by a channel that opens in response to a specific stimulus.
substrate specific channel activity
Catalysis of energy-independent facilitated diffusion, mediated by passage of a specific solute through a transmembrane aqueous pore or channel. Stereospecificity is not exhibited but this transport may be specific for a particular molecular species or class of molecules.
voltage-gated cation channel activity
Catalysis of the transmembrane transfer of a cation by a voltage-gated channel. A cation is a positively charged ion.
substrate-specific transmembrane transporter activity
Catalysis of the transfer of a specific substance or group of related substances from one side of a membrane to the other.
substrate-specific transporter activity
Enables the directed movement of a specific substance or group of related substances (such as macromolecules, small molecules, ions) into, out of, within or between cells.
all
This term is the most general term possible
substrate-specific transmembrane transporter activity
Catalysis of the transfer of a specific substance or group of related substances from one side of a membrane to the other.
ion channel activity
Catalysis of facilitated diffusion of an ion (by an energy-independent process) by passage through a transmembrane aqueous pore or channel without evidence for a carrier-mediated mechanism.
cation channel activity
Catalysis of the energy-independent passage of cations across a lipid bilayer down a concentration gradient.
cation channel activity
Catalysis of the energy-independent passage of cations across a lipid bilayer down a concentration gradient.
voltage-gated ion channel activity
Catalysis of the transmembrane transfer of an ion by a voltage-gated channel. An ion is an atom or group of atoms carrying an electric charge by virtue of having gained or lost one or more electrons.
ligand-gated ion channel activity
Catalysis of the transmembrane transfer of an ion by a channel that opens when a specific ligand has been bound by the channel complex or one of its constituent parts.
voltage-gated potassium channel activity
Catalysis of the transmembrane transfer of a potassium ion by a voltage-gated channel.
inward rectifier potassium channel activity
Catalysis of the transmembrane transfer of a potassium ion by an inwardly-rectifying voltage-gated channel. An inwardly rectifying current-voltage relation is one where at any given driving force the inward flow of K+ ions exceeds the outward flow for the opposite driving force. The inward-rectification is due to a voltage-dependent block of the channel pore by a specific ligand or ligands, and as a result the macroscopic conductance depends on the difference between membrane voltage and the K+ equilibrium potential rather than on membrane voltage itself.
ADAMDEC1ADAM-like, decysin 1 (206134_at), score: 0.96 C3orf51chromosome 3 open reading frame 51 (208247_at), score: 0.87 CHN2chimerin (chimaerin) 2 (207486_x_at), score: 0.97 DTNBdystrobrevin, beta (215295_at), score: 0.93 ERBB4v-erb-a erythroblastic leukemia viral oncogene homolog 4 (avian) (214053_at), score: 0.94 KCNJ14potassium inwardly-rectifying channel, subfamily J, member 14 (220776_at), score: 0.85 KCNJ16potassium inwardly-rectifying channel, subfamily J, member 16 (219564_at), score: 1 LOC100132247similar to Uncharacterized protein KIAA0220 (215002_at), score: 0.99 MAP3K9mitogen-activated protein kinase kinase kinase 9 (213927_at), score: 0.97 NCRNA00092non-protein coding RNA 92 (215861_at), score: 0.89 PDE3Aphosphodiesterase 3A, cGMP-inhibited (206388_at), score: 0.89 RP11-35N6.1plasticity related gene 3 (219732_at), score: 0.91 SCARF1scavenger receptor class F, member 1 (206995_x_at), score: 0.89 SFTPBsurfactant protein B (214354_x_at), score: 0.92 SLC12A3solute carrier family 12 (sodium/chloride transporters), member 3 (215274_at), score: 0.85 SLC6A14solute carrier family 6 (amino acid transporter), member 14 (219795_at), score: 0.88 TAAR2trace amine associated receptor 2 (221394_at), score: 0.99 ZNF287zinc finger protein 287 (216710_x_at), score: 0.87
Id | sample | Experiment | ExpName | Array | Syndrome | Cell.line |
---|---|---|---|---|---|---|
E-TABM-263-raw-cel-1515485651.cel | 1 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
E-TABM-263-raw-cel-1515486011.cel | 19 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
E-TABM-263-raw-cel-1515485731.cel | 5 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
10358_WBS.CEL | 1 | 8 | WBS | hgu133plus2 | WBS | WBS 1 |
46A.CEL | 1 | 3 | DS-mosaic | hgu133plus2 | none | DS-mosaic 1 |
E-TABM-263-raw-cel-1515486091.cel | 23 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
E-GEOD-4219-raw-cel-1311956358.cel | 10 | 7 | Sph-mono | hgu133plus2 | none | Sph-mon 1 |
E-TABM-263-raw-cel-1515486131.cel | 25 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
E-TABM-263-raw-cel-1515485691.cel | 3 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
E-TABM-263-raw-cel-1515485831.cel | 10 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
E-TABM-263-raw-cel-1515485871.cel | 12 | 6 | Cycle | hgu133a2 | none | Cycle 1 |
6Twin.CEL | 6 | 2 | DS-twin | hgu133plus2 | none | DS-twin 6 |
3Twin.CEL | 3 | 2 | DS-twin | hgu133plus2 | Down | DS-twin 3 |
E-GEOD-3860-raw-cel-1561690231.cel | 4 | 5 | HGPS | hgu133a | HGPS | AG10750 |
t21d 08-03.CEL | 7 | 1 | DS-CC | hgu133a | Down | DS-CC 7 |
ctrl c 08-03.CEL | 3 | 1 | DS-CC | hgu133a | none | DS-CC 3 |
E-GEOD-4219-raw-cel-1311956398.cel | 12 | 7 | Sph-mono | hgu133plus2 | none | Sph-mon 1 |
E-GEOD-4219-raw-cel-1311956275.cel | 8 | 7 | Sph-mono | hgu133plus2 | none | Sph-mon 1 |
E-GEOD-4219-raw-cel-1311956138.cel | 4 | 7 | Sph-mono | hgu133plus2 | none | Sph-mon 1 |
E-GEOD-3860-raw-cel-1561690432.cel | 16 | 5 | HGPS | hgu133a | HGPS | AG10750 |
2Twin.CEL | 2 | 2 | DS-twin | hgu133plus2 | none | DS-twin 2 |
E-GEOD-3407-raw-cel-1437949557.cel | 1 | 4 | Cockayne | hgu133a | CS | eGFP |
E-GEOD-4219-raw-cel-1311956634.cel | 19 | 7 | Sph-mono | hgu133plus2 | none | Sph-mon 1 |
ctrl a 08-03.CEL | 1 | 1 | DS-CC | hgu133a | none | DS-CC 1 |
t21a 08-03.CEL | 4 | 1 | DS-CC | hgu133a | Down | DS-CC 4 |
E-GEOD-4219-raw-cel-1311956083.cel | 2 | 7 | Sph-mono | hgu133plus2 | none | Sph-mon 1 |
E-TABM-263-raw-cel-1515485911.cel | 14 | 6 | Cycle | hgu133a2 | none | Cycle 1 |